mirror of
https://github.com/corundum/corundum.git
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378 lines
7.0 KiB
Verilog
378 lines
7.0 KiB
Verilog
/*
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Copyright (c) 2014-2018 Alex Forencich
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Permission is hereby granted, free of charge, to any person obtaining a copy
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of this software and associated documentation files (the "Software"), to deal
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in the Software without restriction, including without limitation the rights
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to use, copy, modify, merge, publish, distribute, sublicense, and/or sell
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copies of the Software, and to permit persons to whom the Software is
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furnished to do so, subject to the following conditions:
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The above copyright notice and this permission notice shall be included in
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all copies or substantial portions of the Software.
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THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
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IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY
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FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
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AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
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LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
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OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN
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THE SOFTWARE.
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*/
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// Language: Verilog 2001
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`resetall
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`timescale 1ns / 1ps
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`default_nettype none
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/*
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* FPGA top-level module
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*/
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module fpga (
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/*
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* Clock: 100MHz
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* Reset: Push button, active low
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*/
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input wire clk,
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input wire reset_n,
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/*
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* GPIO
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*/
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input wire btnu,
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input wire btnl,
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input wire btnd,
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input wire btnr,
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input wire btnc,
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input wire [7:0] sw,
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output wire [7:0] led,
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/*
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* Ethernet: 1000BASE-T RGMII
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*/
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input wire phy_rx_clk,
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input wire [3:0] phy_rxd,
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input wire phy_rx_ctl,
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output wire phy_tx_clk,
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output wire [3:0] phy_txd,
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output wire phy_tx_ctl,
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output wire phy_reset_n,
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input wire phy_int_n,
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input wire phy_pme_n,
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/*
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* UART: 500000 bps, 8N1
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*/
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input wire uart_rxd,
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output wire uart_txd
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);
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// Clock and reset
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wire clk_ibufg;
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// Internal 125 MHz clock
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wire clk_mmcm_out;
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wire clk_int;
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wire rst_int;
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wire mmcm_rst = ~reset_n;
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wire mmcm_locked;
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wire mmcm_clkfb;
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IBUFG
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clk_ibufg_inst(
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.I(clk),
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.O(clk_ibufg)
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);
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wire clk90_mmcm_out;
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wire clk90_int;
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wire clk_200_mmcm_out;
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wire clk_200_int;
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// MMCM instance
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// 100 MHz in, 125 MHz out
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// PFD range: 10 MHz to 550 MHz
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// VCO range: 600 MHz to 1200 MHz
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// M = 10, D = 1 sets Fvco = 1000 MHz (in range)
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// Divide by 8 to get output frequency of 125 MHz
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// Need two 125 MHz outputs with 90 degree offset
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// Also need 200 MHz out for IODELAY
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// 1000 / 5 = 200 MHz
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MMCME2_BASE #(
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.BANDWIDTH("OPTIMIZED"),
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.CLKOUT0_DIVIDE_F(8),
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.CLKOUT0_DUTY_CYCLE(0.5),
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.CLKOUT0_PHASE(0),
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.CLKOUT1_DIVIDE(8),
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.CLKOUT1_DUTY_CYCLE(0.5),
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.CLKOUT1_PHASE(90),
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.CLKOUT2_DIVIDE(5),
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.CLKOUT2_DUTY_CYCLE(0.5),
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.CLKOUT2_PHASE(0),
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.CLKOUT3_DIVIDE(1),
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.CLKOUT3_DUTY_CYCLE(0.5),
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.CLKOUT3_PHASE(0),
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.CLKOUT4_DIVIDE(1),
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.CLKOUT4_DUTY_CYCLE(0.5),
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.CLKOUT4_PHASE(0),
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.CLKOUT5_DIVIDE(1),
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.CLKOUT5_DUTY_CYCLE(0.5),
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.CLKOUT5_PHASE(0),
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.CLKOUT6_DIVIDE(1),
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.CLKOUT6_DUTY_CYCLE(0.5),
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.CLKOUT6_PHASE(0),
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.CLKFBOUT_MULT_F(10),
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.CLKFBOUT_PHASE(0),
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.DIVCLK_DIVIDE(1),
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.REF_JITTER1(0.010),
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.CLKIN1_PERIOD(10.0),
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.STARTUP_WAIT("FALSE"),
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.CLKOUT4_CASCADE("FALSE")
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)
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clk_mmcm_inst (
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.CLKIN1(clk_ibufg),
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.CLKFBIN(mmcm_clkfb),
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.RST(mmcm_rst),
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.PWRDWN(1'b0),
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.CLKOUT0(clk_mmcm_out),
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.CLKOUT0B(),
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.CLKOUT1(clk90_mmcm_out),
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.CLKOUT1B(),
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.CLKOUT2(clk_200_mmcm_out),
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.CLKOUT2B(),
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.CLKOUT3(),
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.CLKOUT3B(),
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.CLKOUT4(),
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.CLKOUT5(),
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.CLKOUT6(),
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.CLKFBOUT(mmcm_clkfb),
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.CLKFBOUTB(),
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.LOCKED(mmcm_locked)
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);
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BUFG
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clk_bufg_inst (
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.I(clk_mmcm_out),
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.O(clk_int)
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);
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BUFG
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clk90_bufg_inst (
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.I(clk90_mmcm_out),
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.O(clk90_int)
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);
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BUFG
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clk_200_bufg_inst (
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.I(clk_200_mmcm_out),
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.O(clk_200_int)
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);
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sync_reset #(
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.N(4)
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)
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sync_reset_inst (
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.clk(clk_int),
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.rst(~mmcm_locked),
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.out(rst_int)
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);
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// GPIO
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wire btnu_int;
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wire btnl_int;
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wire btnd_int;
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wire btnr_int;
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wire btnc_int;
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wire [7:0] sw_int;
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debounce_switch #(
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.WIDTH(13),
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.N(4),
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.RATE(125000)
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)
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debounce_switch_inst (
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.clk(clk_int),
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.rst(rst_int),
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.in({btnu,
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btnl,
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btnd,
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btnr,
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btnc,
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sw}),
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.out({btnu_int,
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btnl_int,
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btnd_int,
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btnr_int,
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btnc_int,
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sw_int})
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);
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wire uart_rxd_int;
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sync_signal #(
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.WIDTH(1),
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.N(2)
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)
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sync_signal_inst (
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.clk(clk_int),
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.in({uart_rxd}),
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.out({uart_rxd_int})
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);
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// IODELAY elements for RGMII interface to PHY
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wire [3:0] phy_rxd_delay;
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wire phy_rx_ctl_delay;
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IDELAYCTRL
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idelayctrl_inst
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(
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.REFCLK(clk_200_int),
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.RST(rst_int),
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.RDY()
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);
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IDELAYE2 #(
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.IDELAY_TYPE("FIXED")
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)
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phy_rxd_idelay_0
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(
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.IDATAIN(phy_rxd[0]),
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.DATAOUT(phy_rxd_delay[0]),
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.DATAIN(1'b0),
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.C(1'b0),
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.CE(1'b0),
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.INC(1'b0),
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.CINVCTRL(1'b0),
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.CNTVALUEIN(5'd0),
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.CNTVALUEOUT(),
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.LD(1'b0),
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.LDPIPEEN(1'b0),
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.REGRST(1'b0)
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);
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IDELAYE2 #(
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.IDELAY_TYPE("FIXED")
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)
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phy_rxd_idelay_1
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(
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.IDATAIN(phy_rxd[1]),
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.DATAOUT(phy_rxd_delay[1]),
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.DATAIN(1'b0),
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.C(1'b0),
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.CE(1'b0),
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.INC(1'b0),
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.CINVCTRL(1'b0),
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.CNTVALUEIN(5'd0),
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.CNTVALUEOUT(),
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.LD(1'b0),
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.LDPIPEEN(1'b0),
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.REGRST(1'b0)
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);
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IDELAYE2 #(
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.IDELAY_TYPE("FIXED")
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)
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phy_rxd_idelay_2
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(
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.IDATAIN(phy_rxd[2]),
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.DATAOUT(phy_rxd_delay[2]),
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.DATAIN(1'b0),
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.C(1'b0),
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.CE(1'b0),
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.INC(1'b0),
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.CINVCTRL(1'b0),
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.CNTVALUEIN(5'd0),
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.CNTVALUEOUT(),
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.LD(1'b0),
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.LDPIPEEN(1'b0),
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.REGRST(1'b0)
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);
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IDELAYE2 #(
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.IDELAY_TYPE("FIXED")
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)
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phy_rxd_idelay_3
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(
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.IDATAIN(phy_rxd[3]),
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.DATAOUT(phy_rxd_delay[3]),
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.DATAIN(1'b0),
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.C(1'b0),
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.CE(1'b0),
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.INC(1'b0),
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.CINVCTRL(1'b0),
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.CNTVALUEIN(5'd0),
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.CNTVALUEOUT(),
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.LD(1'b0),
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.LDPIPEEN(1'b0),
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.REGRST(1'b0)
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);
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IDELAYE2 #(
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.IDELAY_TYPE("FIXED")
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)
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phy_rx_ctl_idelay
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(
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.IDATAIN(phy_rx_ctl),
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.DATAOUT(phy_rx_ctl_delay),
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.DATAIN(1'b0),
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.C(1'b0),
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.CE(1'b0),
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.INC(1'b0),
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.CINVCTRL(1'b0),
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.CNTVALUEIN(5'd0),
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.CNTVALUEOUT(),
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.LD(1'b0),
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.LDPIPEEN(1'b0),
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.REGRST(1'b0)
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);
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fpga_core #(
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.TARGET("XILINX")
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)
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core_inst (
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/*
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* Clock: 125MHz
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* Synchronous reset
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*/
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.clk(clk_int),
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.clk90(clk90_int),
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.rst(rst_int),
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/*
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* GPIO
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*/
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.btnu(btnu_int),
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.btnl(btnl_int),
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.btnd(btnd_int),
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.btnr(btnr_int),
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.btnc(btnc_int),
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.sw(sw_int),
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.led(led),
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/*
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* Ethernet: 1000BASE-T RGMII
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*/
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.phy_rx_clk(phy_rx_clk),
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.phy_rxd(phy_rxd_delay),
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.phy_rx_ctl(phy_rx_ctl_delay),
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.phy_tx_clk(phy_tx_clk),
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.phy_txd(phy_txd),
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.phy_tx_ctl(phy_tx_ctl),
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.phy_reset_n(phy_reset_n),
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.phy_int_n(phy_int_n),
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.phy_pme_n(phy_pme_n),
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/*
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* UART: 115200 bps, 8N1
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*/
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.uart_rxd(uart_rxd_int),
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.uart_txd(uart_txd)
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);
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endmodule
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`resetall
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